Understanding NSK Bearings: Engineering Precision, Performance & Part Number Identification A Technical Guide to NSK Bearing Design and Nomenclature

March 1, 2026
Understanding NSK Bearings: Engineering Precision, Performance & Part Number Identification A Technical Guide to NSK Bearing Design and Nomenclature
Published on  Updated on  

When precision, reliability, and long service life are critical, bearing selection becomes a core engineering decision. Load capacity, internal clearance, sealing configuration, cage design, and lubrication compatibility all directly influence performance.

NSK Ltd. is one of the world’s leading bearing manufacturers, known for advanced material science, ultra-clean steel production, and high-precision manufacturing processes. At Apollo Industries (ApolloUSA.com), we supply NSK bearings across electric motor repair, HVAC systems, automotive, CNC machinery, and heavy industrial markets.

This technical guide will cover:

  • NSK bearing types and design principles

  • Internal clearance and tolerance classes

  • Seal and shield configurations

  • Cage designs and performance impact

  • How to read NSK prefixes and suffixes

  • How our Bearing Code Explorer App simplifies NSK identification

NSK Bearing Types and Engineering Design

NSK manufactures a broad range of rolling element bearings engineered for specific load, speed, and environmental requirements.

1. Deep Groove Ball Bearings

The most common and versatile NSK bearing type.

Engineering Characteristics:

  • Designed primarily for radial loads

  • Capable of handling moderate axial loads in both directions

  • Low friction and high-speed capability

  • Available open, shielded, or sealed

Common NSK series:

  • 6000 Series – Light duty

  • 6200 Series – Medium duty

  • 6300 Series – Heavy duty

Applications include:

  • Electric motors

  • HVAC blower systems

  • Pumps

  • Agricultural machinery

  • Gear reducers

Example:

NSK 6208DDU C3

Breakdown:

  • 6208 → Medium series, 40 mm bore

  • DDU → Double rubber contact seals

  • C3 → Increased internal clearance

2. Angular Contact Ball Bearings

Designed for combined radial and axial loads.

Engineering Characteristics:

  • Optimized contact angles (typically 15°, 25°, 40°)

  • Can be mounted in matched sets

  • High precision grades available

  • High-speed capability

Common in:

  • CNC spindles

  • Machine tools

  • Pumps

  • Compressors

Matched sets may include preload suffixes for axial rigidity.

3. Spherical Roller Bearings

Self-aligning design for heavy radial loads and shaft misalignment.

Engineering Characteristics:

  • Two rows of barrel-shaped rollers

  • Self-aligning outer ring

  • High shock load resistance

Applications:

  • Mining equipment

  • Conveyors

  • Paper mills

  • Heavy industrial gearboxes

4. Tapered Roller Bearings

Optimized for combined radial and axial loads.

Common in:

  • Automotive wheel hubs

  • Axles

  • Industrial reducers

NSK tapered bearings are designed for precise contact geometry to ensure even load distribution and extended fatigue life.

Internal Clearance Classes

Internal radial clearance is critical for proper operation.

NSK clearance designations:

  • CN (Normal)

  • C2 – Less than normal

  • C3 – Greater than normal

  • C4 – Greater than C3

  • C5 – Maximum clearance

Why Clearance Matters

When a bearing is pressed onto a shaft or into a housing:

  • Interference fit reduces internal clearance

  • Thermal expansion further reduces clearance

  • Insufficient clearance leads to preload

Preload can cause:

  • Increased friction

  • Elevated operating temperature

  • Lubrication breakdown

  • Premature failure

In electric motor applications, C3 clearance is commonly specified.

NSK Seal and Shield Configurations

NSK uses specific suffix codes to designate protection type.

Suffix Description Protection Level
Z Single metal shield
ZZ Double metal shields
DU Single rubber contact seal
DDU Double rubber contact seals
VV Non-contact seals

Example:

NSK 6301ZZ

  • Two metal shields

NSK 6301DDU

  • Two rubber contact seals

Seal selection affects:

  • Contamination resistance

  • Lubricant retention

  • Speed rating

  • Operating temperature

Cage Design and Materials

Cage material impacts:

  • Speed capability

  • Noise

  • Heat resistance

Common NSK cage suffixes:

  • J – Pressed steel cage

  • M – Machined brass cage

  • TN – Polyamide cage

Polyamide cages are often used in high-speed motor applications due to reduced mass and lower friction.

How to Read NSK Bearing Numbers

Example:

NSK 6208DDU C3

Step 1: Basic Bearing Number

  • First digit → Bearing type

  • Second digit → Series (robustness)

  • Last two digits → Bore code

Bore calculation rule:

  • Codes 04 and above: multiply by 5

Example:

  • 08 × 5 = 40 mm bore

Step 2: Suffixes

Common NSK suffixes:

Suffix Meaning
DDU Double rubber seals
ZZ Double shields
C3 Increased clearance
NR Snap ring groove
CM Electric motor internal clearance
E Reinforced design

Each suffix modifies the bearing’s performance characteristics.

Precision and Tolerance Classes

NSK bearings conform to ISO precision standards.

Common classes:

  • P0 – Normal

  • P6 – Higher precision

  • P5 – Precision grade

  • P4 – High precision (machine tool)

Precision grade affects:

  • Radial runout

  • Noise

  • Vibration

  • High-speed stability

Electric Motor-Specific NSK Bearings

NSK offers electric motor-optimized variants featuring:

  • Low-noise internal geometry

  • Optimized grease fill

  • CM clearance

  • Improved sealing systems

These are commonly used in:

  • HVAC motors

  • Industrial pumps

  • Compressors

  • Conveyor drives

Why Prefix and Suffix Identification Is Critical

Misinterpreting NSK suffixes can result in:

  • Incorrect internal clearance

  • Wrong sealing configuration

  • Reduced RPM capability

  • Seal failure

  • Excessive heat

At Apollo Industries, we frequently assist customers with:

  • NSK cross-references

  • Upgrading from shielded to sealed designs

  • Selecting correct clearance for press-fit housings

  • Electric motor bearing optimization

Introducing the Apollo Bearing Code Explorer App

At the bottom of this blog page, you will find our upcoming Apollo Bearing Code Explorer App.

This tool will allow you to:

  • Decode NSK prefixes and suffixes instantly

  • Compare clearance classes

  • Identify seal types

  • Understand cage materials

  • Cross-reference equivalent SKF, Timken, and other bearing brands

Designed for maintenance managers, engineers, and purchasing teams, this app removes uncertainty from bearing selection.

Conclusion

NSK bearings represent advanced Japanese engineering, precision manufacturing, and global reliability standards. From deep groove ball bearings to spherical and angular contact designs, every prefix and suffix carries essential technical meaning.

Understanding NSK part numbers ensures:

  • Proper fit and function

  • Optimal clearance selection

  • Improved operating temperature control

  • Extended service life

  • Reduced downtime

At Apollo Industries (ApolloUSA.com), we combine industrial supply with technical expertise to help customers select the correct NSK bearing the first time.

If you need assistance decoding an NSK part number or selecting the proper configuration for your application, contact our team today.

Apollo Industries — Precision Components. Engineered Solutions. Reliable Supply.

Published on  Updated on  

How to Read an NSK Bearing Number

Every NSK bearing part number is built from a prefix (optional — load rating or special feature), a basic number (bearing type, dimension series, and bore size), and one or more suffixes (seals, clearance, cage, grease, and other features). Multiply the last two digits of the basic number by 5 to get the bore diameter in millimeters. Special bore codes: 00 = 10mm, 01 = 12mm, 02 = 15mm, 03 = 17mm.

6205 DDUCCM NS7S 6205 Deep groove ball, 62 series, 25mm bore • DDU Rubber seals both sides • CM Motor clearance • NS7 Hi-Lube grease • S Standard fill
HR 30207 J HR Higher load rating • 302 Tapered roller series • 07 35mm bore • J Conforms to ISO 355
Prefixes & Type Codes
Bearing Type Codes (First Digit)
CodeBearing Type
0Double row angular contact ball bearing
1Self-aligning ball bearing
2Spherical roller bearing / Self-aligning roller bearing
3Tapered roller bearing
4Double row deep groove ball bearing
5Thrust ball bearing
6Single row deep groove ball bearing
7Single row angular contact ball bearing
8Cylindrical roller thrust bearing
Deep Groove Ball Bearing Series
SeriesDescription
60xxLight series
62xxMedium series
63xxHeavy series
64xxHeavy series
68xxExtra-thin section series
69xxThin section series
Cylindrical Roller Bearings
PrefixConfiguration
NDouble flanged inner ring, open outer ring
NFDouble flanged inner ring, single flanged outer ring
NUDouble flanged outer ring, open inner ring
NJSingle flanged inner ring, double flanged outer ring
NUPDouble flanged outer ring, single flanged inner ring + loose rib
NHTwo-piece inner ring, double flanged outer ring
NN / NNUDouble-row cylindrical roller bearings
Super Precision / Machine Tool Series
CodeDescription
BNRUltra high-speed angular contact, 18° contact angle
BERUltra high-speed angular contact, 25° contact angle
BSRUltra high-speed angular contact, 15° contact angle
BARHigh rigidity thrust angular contact, 30° contact angle
BTRHigh rigidity thrust angular contact, 40° contact angle
TACThrust angular contact for ball screw support
Needle Roller Bearings
SeriesDescription
NA48xxNeedle roller bearing with inner ring
NA49xxNeedle roller bearing with inner ring
NA59xxNeedle roller bearing with inner ring
NA69xxNeedle roller bearing with inner ring
RNANeedle roller bearing without inner ring
Bearing Unit Designations
CodeDescription
UCStandard bearing insert
UKBearing insert with tapered bore
UCF4-bolt flange unit
UCFCPiloted flange unit
UCP / SPStandard pillow block unit
UCFL / SFT2-bolt flange unit
UCHTTake-up unit
Prefixes
PrefixMeaning
HRHigher load rating (tapered roller and deep groove)
BNon-standard boundary dimensions
FFlanged outer ring
MRMiniature metric bearing, special dimensions
MFMiniature metric bearing, flanged outer ring
ROuter ring with rollers and cage (no inner ring)
LOuter ring of a separable bearing
Suffixes
Seals & Shields
SuffixMeaning
ZSteel shield (dust cover) on one side
ZZSteel shields on both sides
DUContact rubber seal on one side
DDUContact rubber seals on both sides
VNon-contact rubber seal on one side
VVNon-contact rubber seals on both sides
DDContact rubber seals on both sides (alternate code)
RROD riding trash guard rubber contact seals
RSFace riding rubber contact seal
TFace riding trash guard rubber contact seal
TTTwo face riding trash guard rubber contact seals
WTwo labyrinth seals
Internal Clearance
SuffixMeaning
C1Clearance smaller than C2 (tightest)
C2Clearance less than Normal
CNNormal clearance (default — usually not stated)
C3Clearance greater than Normal
C4Clearance greater than C3
C5Clearance greater than C4 (loosest)
CMElectric motor clearance (deep groove and cylindrical roller)
CTElectric motor clearance (cylindrical roller)
MC3Normal clearance (miniature bearings)
MC5Larger than MC4 clearance (miniature bearings)
Cage / Retainer Type
SuffixMeaning
MMachined brass (copper alloy) solid cage
WPressed (stamped) steel cage
TSynthetic resin (plastic) cage
JPressed steel retainer, two-piece ribbon type
YPressed brass retainer, two-piece ribbon type
VFull complement (no cage)
TYNPolyamide resin cage, rolling element guided (~120 °C limit)
TROuter ring guided phenolic resin cage (~120 °C limit)
TBPPS (polyphenylene sulfide) resin cage
TPPEEK cage — for clean/vacuum environments
TSOuter ring guided PEEK cage
MYRolling element guided brass cage
Internal Design
SuffixMeaning
ANon-standard internal design / internal redesign
JConforms to ISO 355 (tapered roller bearings)
CHigh-capacity design (spherical roller) / 15° contact angle (angular contact)
CAHigh-capacity spherical roller, copper alloy machined cage
EAHigh-capacity spherical roller, stamped cage (high load)
EHigh-load design (cylindrical roller / thrust roller)
EMCylindrical roller, copper alloy machined cage
ETCylindrical roller, polyamide molded cage
HHigh-load design (thrust self-aligning roller)
Contact Angle (Angular Contact)
SuffixContact Angle
C15 degrees
A525 degrees
A30 degrees (standard)
B40 degrees
Snap Ring, Bore & External Design
SuffixMeaning
KTapered bore, taper 1:12
K30Tapered bore, taper 1:30
NSnap ring groove in outer ring
NRSnap ring groove with snap ring installed
E4Outer ring with oil groove and 4 oil holes
XRedesigned boundary dimension
Tolerance / Precision Class
SuffixMeaning
P0Normal tolerance — ISO Class 0 (default, usually not stated)
P6ISO Class 6 (ABEC-3)
P5ISO Class 5 (ABEC-5)
P4ISO Class 4 (ABEC-7)
P2ISO Class 2 (highest standard precision)
Preload (Angular Contact)
SuffixMeaning
ELExtra light (micro) preload
LLight preload
MMedium preload
HHeavy preload
Matched Bearing Sets
SuffixMeaning
DBBack-to-back (duplex) paired
DFFace-to-face (duplex) paired
DTTandem (duplex) paired
DBBBack-to-back four-column combination
SUSingle-column universal combination
Heat Stabilization
SuffixMax Operating Temperature
X26Below 150 °C (300 °F)
X28Below 200 °C (390 °F)
X29Below 250 °C (480 °F)
S11Below 200 °C (spherical roller bearings)
Material
SuffixMeaning
gCarburized (case-hardened) steel rings and rolling elements
h / HStainless steel rings and rolling elements
H (precision)Steel rings with ceramic (Si3N4) balls — hybrid bearing
X (precision)High-speed heat-resistant steel with ceramic balls
Grease / Lubrication
SuffixDescription
NS7NS Hi-Lube — ester oil grease, −40 to +130 °C
AS2Shell Alvania S2 — lithium/mineral, high-load applications
LG2Lithium grease, clean environments, −20 to +70 °C
LGUUrea grease, clean conditions
PS2Multemp PS No. 2
ENSENS grease

Grease fill: K ~20% • L ~20-30% • S ~30-55% (standard) • M ~55-70%

Need help choosing the right NSK bearing? Call us at 1 (248) 429‑9073 or use the chat below.